DE4335091C2 - Programmable electronic tuner for television antennas - Google Patents

Description

The invention relates to a programmable electro African tuner for domestic TV antennas and affects the electro African tuning of the channel filters for the reception of the three remote VHF low, VHF high and UHF viewing areas. The provided in the tuner The channel filter contains varicap diodes whose capacitance is determined by Application of a specific one programmed in memory and by the microcontroller controlled voltage or by application a "tuning signal" to that required for resonance Value is set.

GB-2 187 906-A is a system for tuning Resonance circuits with Varicap diodes by introducing single ones Polarization voltages known in the form of binary codes in the Memory stored and accessed by a microcontroller and controlled and converted by the corresponding D / A converter become. Also the parallel resonance circuit structure with inductance and Varicap with ground clamp is common, the signal voltage is applied across a resistor.

The delivery of a special tuning signal to each resonance circle or tunable circle makes it possible to use the filter with no to produce paired varicaps and higher tolerance components.  

From ES-515 591 is a microcontroller sequence or a logi known circle to set the tuning for each channel as follows: reception and decoding of the indication of the channel selected via the keyboard; Retrieve the previously for each Ge guesses the programmed data recorded by the factory from a not volatile memory; Addressing the corresponding storage po sition to the area and channel to be matched; Generation of Ab voice signals with a D / A converter and feeding them, after their amplification, to the selected filter. At the tuner the same patent, the same converter and amplifier for the different tunable circles of the same filter used. Switching for individual setting follows via switch which is the control signal from the logic circuit receive.

DE 33 03 711 C2 describes a tuner for a TV Receiving device and means an electronic tuner, which has the following: a variety of channel filters, each Weil with inductance and capacitance diode, one with a local one Automatic frequency control system with oscillator closed phase loop (PLL), a microprocessor that is there to gradually increase a tuning voltage, which then with a reference value generated by the local oscillator until an optimum value is reached in the input of a mixing stage is enough, a RAM memory in which division factors for the Generation of the continuous increases in the reference voltage stores, a D / A converter and a switch that the optima via a periodically updated buffer controls the voltage for each filter.

In the known digital tuning systems for channel filters the signal data, d. H. the polarization voltages of the individual Capacitance diodes (varicaps) in the form of binary codes in the memory recorded, in advance in the factory for the possible coordination of a  determined single channel number. The change in ge stored signal data requires special means for deletion and reprogramming, which is why the device is sent back to the factory must become. Since the number of tunable channels for the Emp the individual stations start from a geographical area whose changes, the suppliers of amplifiers for Hausan store differently set devices, each are only suitable for a certain area because the in the Memory recorded for tuning the individual filters suitable polarization voltages are invariable values.

It is an object of the invention a programmable electronic to specify the tuner for domestic TV antennas that has a Ta stature in place of users all filter numbers of the Tu with everyone received by the house antenna in the tuner Channel number can be tuned and programmed, which only a single tuner model is required for all geographical areas is dig. This object is achieved by the one specified in claim 1 Invention solved.

The programmable elec forming the subject of the invention tronic tuners for television antennas include one out of two structure or multiple connected tunable circles in which each circuit has a control input, via which the voltage or the appropriate tuning signal individually is fed.  

The suitable polarization voltages for the individual tuning Circles and channel frequencies are factory-set in an EEPROM Programmed memory in the form of binary signal data, what also applies to the information regarding the channel and filter number. The "Filter state" is set by assigning a Filter number and the corresponding polarization voltages a specific channel number, one for each circle of each channel. In contrast to the im The EEPROM memory allows prior art memories deletion and reprogramming of the data by electrical Impulses, through which these measures are carried out at the location of the device can be led. This different characteristic of the im described digital voting system used memory offers the advantage that after installation resulted in data obtained after a set voting process Time or using instructions entered from the keyboard enter the memory and the original stored in the factory replace data. This way it is no longer necessary Deliver devices of different settings. A single one Model serves for all geographic areas regardless of how many channels to tune. The installer instructs everyone Channel a filter number in place and can vote Repeat the process under other installation requirements, without sending the device to the factory, as was previously the case need to z. B. to replace a filter of the amplifier or the Channel assignment.

The user enters the channel number, the filters via the keyboard number and the instructions regarding the filter condition and the Completion of the tuning process in the microcontroller. During the voting process, the selected ones are shown on a display Channel number and filter number are displayed.  

The programmed signals for tuning the resonant circuits a filter number and the channel selected for this filter are used by the microcontroller to form a dynamic Memory provided circuit with numerous outputs fed, which each correspond to a tunable filter circuit, the the same before use as analog and up to the DC voltage, which is required for the polarization of a Varicap diode, receives amplified signals.

The required initial number of dynamic memory ent speaks at least the result of the tunable circles Filters and the channel filter of the amplifier, being excess Outputs can remain unoccupied. Because of economical reasons it is not justifiable to have a D / A converter / Use amplifier unit. The number of converters was in reduced to the extent that it changes the time of the switching sequence and allows the storage of the circle of dynamic memory, for what purpose a selector switch is available that the signals corresponding to each output of the dynamic memory feeds and at the same time one of the number of converters of the device switches the corresponding number of memory outputs.

Thanks to the EEPROM memory used, the algorithm enables the tuning process of the programmed channels that the micro control the measures for reprogramming a filter with a different channel or a different tuning frequency increases when the installer increases the condition of any filter wants to change at a certain time. For this purpose he chooses the new filter number for the one to be tuned using the keyboard Channel, after which all further routine tuning work be carried out continuously and automatically: query the corresponding programmed signal data from the EEPROM memory, Enter this data into the converter, control the dynamic Memory using a selector switch and creating the appropriate one  Signals to the individual tuning circuits of the selected filter the outputs of the dynamic memory. The user decides complete the tuning of all channels and re-program the channel assignment to the filters or the new "filter status" in the EEPROM memory. The microcontroller begins its constant Duty cycle and directs the data of each coordinated Systematically into the converter to get them up to one new change of the filter status to the corresponding filter apply. The new filter status is also in the EEPROM memory for later commissioning of the device, e.g. B. after a Interruption of the power supply or a new installation of the Amplifier, the memory of which emanates from the channels which during of the last voting process.

To prevent one and the same channel from going through at the same time The microcontroller takes several filters a comparison between the channel of the filter with which the described voting process is carried out, and the wide channels assigned to filters. You already had the channel previously assigned, the microcontroller rejects it.

Fig. 1 shows a circuit diagram of the basic structure of a channel filter used.

Fig. 2 shows schematically the dynamic memory with 32 outputs, which correspond to an equal number of tuning circles of the programmable filter.

Fig. 3 shows the digital tuning system of the circles, which comprise 8 channel filters.

Fig. 4 represents a flowchart of the algorithm for tuning and reprogramming of the filter.

PREFERRED EMBODIMENT OF THE INVENTION

In view of the drawings it can be seen that the programmable electronic tuner for television house antennas according to a preferred embodiment of the invention has a known filter structure shown in FIG. 1, which is composed of four tunable Varicap circles (CR ₁ to CR ₄ ) , two in front of the amplification stage and two at the output, which individually from a control line (R ₁ to R ₄ ) with a voltage (Vs ₁ to Vs ₄ ) or a special one for each channel ex works or later by the installer in the EEPROM Memory ( 3 ) programmed tuning signal. This EEPROM memory therefore contains the suitable voltages stored in the form of binary data for the tuning of the channels and filters as well as the filter status.

Since a device for television antennas preferably has eight programmable television channels, a dynamic RAM memory ( 8 ) with 32 outputs (s ₁ to s ₃₂ ) is used, as shown in FIG. 3, to which the individual tuning signals are via Selector switches ( 7 ) are supplied sequentially in groups of four.

Four units of A / D converters ( 5 ) and amplifiers ( 6 ) are used to simultaneously apply four tuning signals to an equal number of circuits of the same filter ( 11 to 18 ). The digital programming system is controlled by a micro controller ( 1 ), which receives the instructions from the installer via the keyboard ( 2 ). The installer follows the tuning process on the display ( 4 ), which shows the number of the working filter ( 11 to 18 ) and the number of the channel that is being tuned.

The tuning and reprogramming sequence controlled by the microcontroller ( 1 ) is shown in FIG. 4 in the flowchart: it is decided to change or not to change the filter state in block ( 26 ). If it should not be changed, the tuning routine (block 23 to 25 ) is repeated for each channel with the originally selected filter: input of the data in converter ( 5 ) in block ( 23 ), control of the dynamic memory via selector switch ( 7 ) in Block ( 24 ), application of the corresponding signals via dynamic memory in block ( 25 ). If the state of a channel is to be changed, the new filter is selected in block ( 27 ) in order to then carry out the routine operations represented by the tuning block ( 28 ), which have already been described above. After final coordination of the required channels, the EEPROM memory ( 3 ) is given the appropriate instruction so that it stores the new assignment data, block ( 30 ). The routine of block ( 28 ) is then carried out repeatedly in the "working position".

Claims (5)

1. Programmable electronic tuner for domestic television antennas, comprising:
a multiplicity of channel filters ( 11-18 ), each containing different parallel inductance capacitance diode circuits (CR1-CR4, CR29-CR32) which can be tuned by means of a polarization voltage (Vs1-Vs32) specific to each filter circuit,
a microcontroller ( 1 ),
a storage device ( 3 ),
a number of D / A converters and amplifiers ( 6 ) which is less than or equal to the total number of circles (CR1-CR4) which generate the polarization voltages (Vs1-Vs32) for tuning the filter circuits (CR1-CR32), and
Means ( 7 , 8 ) for applying the polarization voltages (Vs1-Vs32) to the respective channel filters ( 11-18 ),
wherein the storage device ( 3 ) stores a plurality of predetermined binary data, which are individually related to the values of the polarization voltage (Vs1-Vs32), for tuning each filter circuit (CR1-CR32) to all received by the house antenna channel frequencies,
the microcontroller ( 1 ) has a connected keyboard ( 2 ) and a dis play ( 4 ), with the aid of which a tunable filter ( 11-18 ) is programmed for each channel, and a selector switch ( 7 ) for switching and Control of the generated polarization voltages (Vs1-Vs32) and a dynamic storage device ( 8 ), and
wherein the dynamic memory device ( 8 ) has a plurality of memory positions, the output (s1-s32) of which is connected to each filter circuit (CR1-CR32), into which all polarization voltages (Vs1-Vs32) are connected during a tuning process routine ( 23-25 ) of each channel ) any desired filter number ( 11-18 ) must be entered before they are applied to the respective filter, following an uninterrupted sequential process ( 20-27 ), in the course of which a filter is used using the keyboard ( 2 ) and display ( 4 ) ( 11-18 ) is selected to tune to a specific channel. 2. Programmable electronic tuner for television house antennas according to claim 1, wherein the memory device ( 3 ) is an EEPROM memory in which the data of the specific, predetermined polarization voltages (Vs1-Vs32) for tuning all filter circuits (CR1-CR4) in all tunable frequency bands are stored. 3. A programmable electronic tuner for domestic television antennas according to claim 1 or 2, wherein the user decides after executing the tuning routine ( 23-25 ) whether or not to change the programmed filter state and any of the filters ( 11-18 ) chooses to tune any television channel via the keyboard ( 2 ), and he can follow this process on the display ( 4 ) and repeat the tuning routine with the data of the new filter state. 4. Programmable electronic tuner for television antennae according to one of claims 1 to 3, wherein the various selected filter states can be reprogrammed by the installer after completion of the tuning process of all channels in the storage device ( 3 ) of the binary data and at a later commissioning of the device remain until they are changed again. A programmable electronic tuner for television antennas according to claim 1, wherein the microcontroller ( 1 ) and the dynamic memory ( 8 ) have internal means to prevent the same channel from being tuned for two filters, for which purpose the channel to be tuned is compared with the channels tuned by the other filters.